Cloning of a FLOWERING LOCUS T ortholog in Wasabia japonica (Matsum)

A FLOWERING LOCUS T ortholog (WjFT) was identified in Wasabia japonica. Heterologous expression of WjFT remarkably promoted the flowering of Arabidopsis. The expression of WjFT was examined in field-grown wasabi in October and November of 2009, and February of 2010 because the differentiation of flower buds occurs in autumn in field-grown wasabi. No expression of WjFT was detected in October, it was slightly increased in November, and highly increased in February. WjFT might be useful for examining the flowering response of wasabi.     

Cloning of FLOWERING LOCUS C ortholog in Wasabia japonica (Matsum.)

Wasabi (Wasabia japonica) is a commercially important crop in Japan. We isolated a FLC ortholog from wasabi and named as WjFLC. Predicted amino acid sequence encoded by WjFLC showed 89% identity with FLC of arabidopsis and conserved the MADS box motif. WjFLC was expressed in young and mature leaves, apical region of lateral bud, rhizome, and root. The expression of WjFLC was high in October and reduced in November when flower buds are formed in wasabi. WjFLC may be useful in monitoring the flowering response in wasabi.     

GROWTH AND DEVELOPMENT OF LITCHI CHINENSIS AS AFFECTED BY SOIL-MOISTURE STRESS

The effects of soil-moisture tension on growth and floral development of field-grown Litchi chinensis, a woody subtropical fruit tree, were investigated. Floral initiation and fruit set were promoted by a high soil-moisture tension for 6 months, beginning with June, 1967, or for 4 months, beginning with October, 1967. The normal floral-initiation period in Hawaii is during the period November to January. The apical meristematic tissue, judged from the number of branches flowering, was apparently not adversely affected by a soil-moisture stress, provided adequate water was available during the floral-bud development period. Low soil-moisture tension (0.3 bar) throughout the experimental period was inhibitory for floral bud initiation. High soil-moisture tension inhibited growth of the trunk and the emergence of flush-growths. Flowering was correlated significantly, and negatively, with growth. Leaf nitrogen and potassium levels were unaffected by water stress, but the phosphorus levels in leaf and stem were lowered by high-moisture tension. Hydrolysis of starch under moisture stress, reported for some species, was not evident in the Litchi. No correlation between trophic constituents and flowering was observed.     

A pollen calendar for Chittagong University Campus,Chittagong (Bangladesh)

Summary This work presents a calendar of pollen types found in the atmosphere of Chittagong University Campus, Chittagong, Bangladesh, recorded over the period of March 1988–February 1990. A total of 9,225 pollen/cm² was encountered and classified in 36 pollen types belonging to 26 families. The pollen concentration showed three peak periods, March, October and November and each period was dominated by a specific pollen type. Low frequency of pollen was probably due to heavy rainfall which washed down the pollen. January and February were also marked by lower abundance of pollen and was probably due to the low rate of flowering. This study clearly showed four airborne pollen seasons from October to November, December to February, March to April and June to September. The dominant pollen types were Poaceae, followed by Amaranthaceae, Arecaceae, Asteraceae and Cyperaceae. The pollen calendar was provided to show the range of flowering with the period of occurrence in air of the area studied.     

Ectopic expression of a poplar APETALA3-like gene in tobacco causes early flowering and fast growth

A MADS-box gene, designated PtAP3, was isolated from a floral bud cDNA library derived from Populus tomentosa. Analysis by multiple alignments of both nucleotide and amino acid sequences, together with phylogenetic analysis, revealed that PtAP3 is an ortholog of Arabidopsis AP3. Analysis of RNA extracts from vegetative and reproductive tissues of P. tomentosa by RT-PCR indicated that PtAP3 is expressed in roots, stems, leaves and vegetative and floral buds. Notably, the expression of PtAP3 fluctuated during floral bud development between September and February with differences between male and female buds. In the former, a gradual down-regulation during this period, interrupted by a slight up-regulation in December, was followed by a sharper up-regulation on February. In developing female floral buds, expression was stable from September to November, sharply up-regulated in December, and then gradually down-regulated until February. The functional role of PtAP3 was investigated in transgenic tobacco plants. Of 25 transformants, nine displayed an earlier flowering phenotype compared with the wild type plants. Furthermore, transgenic tobacco had faster growth and more leaves than untransformed controls. The traits proved to be heritable between the T0 and T1 generations. Our results demonstrate a regulatory role of the PtAP3 gene during plant flowering and growth and suggest that the gene may be an interesting target for genetic modification to induce early flowering in plants.     

In vivo and in vitro flowering response of chicory (Cichorium intybus L.): influence of plant age and vernalization

Chicory plants (Cichorium intybus L. var foliosum cv Flash) were tested with and without a 4-week-long cold treatment for in vivo and in vitro flowering potential every 2 weeks during the growing season. One hundred percent of the plants harvested 112 days or later after sowing and then vernalized flowered in vivo. In vitro, no vernalization was needed to initiate flowering-stems on chicory explants taken from roots of 100 days old and older. 5-Azacytidine, a DNA demethylation agent, increased the flowering percentage on explants from young, vernalized roots but could not induce more than 15% flowering on young, nonvernalized roots. The greater flowering potential of chicory root explants in vitro when compared to plants of the same age tested in vivo was clearly established. This result suggests that some negative control on flowering was removed when root explants were excised and the main plant body discarded. Received: 31 August 1998 / Revision received: 27 October 1998 / Accepted: 10 November 1998     

The roles of ascospores and conidia of Pyrenopeziza brassicae in light leaf spot epidemics on winter oilseed rape (Brassica napus) in the UK

Ascospores of Pyrenopeziza brassicae were produced in apothecia (cup‐shaped ascomata) on oilseed rape debris. The conidia, which were morphologically identical to the ascospores, were produced in acervular conidiomata was greater than for lesions caused by ascospores. In June 2000, on the ground under a crop with light on the surface of living oilseed rape tissues. Ascospores were more infective than conidia on oilseed rape leaves. The proportion of lesions caused by conidia located on leaf veins leaf spot, numbers of petioles with apothecia decreased with increasing distance into the crop from the edge of pathways. Air‐borne ascospores of P. brassicae were first collected above debris of oilseed rape affected with light leaf spot on 5 October 1998 and 18 September 1999,12 or 23 days, respectively, after the debris had been exposed outdoors. P. brassicae conidia were first observed on leaves of winter oilseed rape on 6 January 1999 and 15 February 2000, respectively, after plots had been inoculated with debris in November 1998 and October 1999. In 1991/92, numbers of ascospores above a naturally infected crop were small from January to April and increased in June and July. P. brassicae conidia were first observed in February and the percentage plants with leaves, stems or pods with light leaf spot increased greatly in May and June. In 1992/93, in a crop inoculated with debris, numbers of airborne ascospores were small from October to January and increased from April to June. P. brassicae conidia were first observed on leaves in late November and light leaf spot was seen on stems and pods in March and June 1993, respectively.     

Further study on seasonal fluctuations of Egyptian soil fungi

The seasonal fluctuations of fungi were studied in 72 soil samples collected at 10-day intervals between January 1972 and December 1973. The richest periods in the fungal population were January, March and September–December 1972, and April, May, September, November and December 1973. The poorest months were consistently June and July of 1972 and 1973 and August 1973 which are all summer months. Thirty-nine genera were isolated of which Aspergillus, Penicillium, Fusarium, Mucor, Rhizopus and Humicola were of high seasonal occurrence. Seven genera were of moderate occurrence and these were Cochliobolus,Stachybotrys, Paecilomyces, Cunninghamella, Myrothecium, Chaetomium and Sepedonium. The remaining genera were of low or rare seasonal occurrence. Aspergillus showed its highest prevalence during the periods May-September 1972 and April-August 1973. Twenty-four species of Aspergillus in addition to two varieties of A. nidulans were isolated, of which A. niger, A. fumigatus, A. terreus, A. nidulans and A. sydowii were dominant. Thirty species of Penicillium were identified, of which P. notatum, P. funiculosum and P. chrysogenum were of high seasonal occurrence. Penicillium predominated during winter and spring months. Fusarium showed its highest percentage populations during the periods February, March, April, October, November and December 1972 and February, August, September, October and November 1973. Four species of Mucor were recorded of which M. racemosus was the commonest; and its highest percentage populations were recorded in November 1972; and February, March and November 1973 which are moderate temperature months. Rhizopus was represented by two species of which R. nigricans was of high seasonal occurrence. Three species of Humicola were isolated of which H. grisea was the most common.     

Seasonal occurrence of the potato gangrene pathogen, Phoma exigua var. foveata, in the open air

Using a Casella High Volume Bacterial Sampler air samples were collected down wind of potato fields in central Scotland when it was raining and when it was dry between December 1978 and October 1982. Airborne propagules of Phoma exigua var. foveata were recovered from the open air during rainfall in most months of the year but the frequency of recovery was greatest in September, October and November. The numbers of colonies of P. exigua var. foveata detected during rainfall were much greater in September and October than during the rest of the year. Low numbers of colonies of P. exigua var. foveata were recovered in the absence of rainfall and their occurrence appeared to be associated with strong winds and dry soil conditions. These latter airborne propagules were detected during all the months except November to February when few samples were made. Sampling simultaneously up wind and down wind of potato fields in September and October demonstrated that the potato crop was the main source of airborne propagules caught down wind but small numbers of P. exigua var. foveata were recovered up wind in four out of the seven experiments.     

Fire Season Effects on Flowering Characteristics and Germination of Longleaf Pine (Pinus palustris) Savanna Grasses

Pinus palustris (longleaf pine) savannas depend on contiguous grass cover to facilitate frequent surface fires. Enhanced flowering, seed production, and germination may be linked to season of fires. We assessed the effect of month of prescribed fire (February, April, May, and July) on percentage of plants with flowering culms (FCs%), FC/area, FC/plant, seed production, and germination for five warm seasons, fall‐flowering grasses. Multivariate analysis indicated the response of flowering and fruiting to burn month varied among the grass species. The dominant species, Sporobolus junceus and Schizachyrium scoparium var. stoloniferum, had greater numbers of most flowering characteristics when burnt during April, May, and July. Aristida purpurascens had increased FC/plant after May and July burns. In contrast, Ar. mohrii had the fewest FC/plant and seeds/FC when burnt in July. Germination was greatest (26–60%) for Ar. purpurascens. Seeds collected following July burns for Ar. purpurascens and Ar. ternarius and after May burns for S. junceus were within the highest germination values recorded. Germination of Sc. scoparium var. stoloniferum was very low after February and July burns (≤5%). With Ar. mohrii, only seed collected following February (2%) and April burns (3%) germinated. April, May, and July fires increased seed production of dominant matrix grasses, thus facilitating the potential for recruitment of these species and facilitating seed collection from potential donor sites for ground‐layer restoration projects. Varying prescribed fire burn month captured variation in flowering characteristics among these grasses.     

Shoot growth components and flowering phenology in grafted<Emphasis Type="Italic"> Pinus halepensis</Emphasis> Mill.

Shoot elongation and flowering were assessed for a season (January–November) in 25 grafts from five clones of Pinus halepensis growing in a seed orchard. A co-dominant shoot from the upper crown and a dominated, low shoot were measured from each ramet. Upper shoots elongated continuously from a variable onset date between January and March and followed a logistic function against Julian day and a Gompertz function against heat sum above 0°C. Three to seven (averaging five) successive cycles were formed through the growing season; usually, two of them were preformed in the terminal bud (spring cycles) and one to four were neo-formed, summer cycles. The number of summer cycles and their contribution to the annual shoot growth were the only variables with a significant clonal influence. Ovulate strobili appeared from February to April and in October. Some ramets showing two female flowering cycles in the same shoot were observed. Lower shoots, bearing pollinate strobili always displayed a single spring cycle preformed in the winter bud.     

The annual reproductive pattern of the Antarctic clam, <Emphasis Type="Italic">Laternula elliptica</Emphasis> from Marian Cove,King George Island

The annual reproductive cycle of the Antarctic soft-shelled clam, Laternula elliptica, in Marian Cove, King George Island was studied over a 2-year period from February 1998 to January 2000. Annual changes in the gametogenesis were investigated by measuring the percentage of area occupied by oocytes in a follicle [follicle index (FI)] and the oocyte size. In 1998, the monthly mean FI increased significantly from October to November, peaked in December, and decreased rapidly from December to January. In February and March 1999, degenerated eggs were observed in the spent follicles. Degeneration and resorption of residual eggs by phagocytosis occurred mostly in February and March in both 1998 and 1999, although the resorption process was observed year-round. The histology indicated that complete vitellogenic growth of L. ellpitica at Marian Cove takes at least a year and the clams spawn annually during the austral summer. The ripening and subsequent spawning of clams at Marian Cove in 1998 and 1999 coincided with the algal blooming (September–October 1998 and December and January 1999–2000) suggesting that in coastal Antarctica food supply is a crucial factor that governs gonad maturation and subsequent spawning along with the water temperature.     

A possible role for flowering locus T‐encoding genes in interpreting environmental and internal cues affecting olive (Olea europaea L.) flower induction

Olive (Olea europaea L.) inflorescences, formed in lateral buds, flower in spring. However, there is some debate regarding time of flower induction and inflorescence initiation. Olive juvenility and seasonality of flowering were altered by overexpressing genes encoding flowering locus T (FT). OeFT1 and OeFT2 caused early flowering under short days when expressed in Arabidopsis. Expression of OeFT1/2 in olive leaves and OeFT2 in buds increased in winter, while initiation of inflorescences occurred i n late winter. Trees exposed to an artificial warm winter expressed low levels of OeFT1/2 in leaves and did not flower. Olive flower induction thus seems to be mediated by an increase in FT levels in response to cold winters. Olive flowering is dependent on additional internal factors. It was severely reduced in trees that carried a heavy fruit load the previous season (harvested in November) and in trees without fruit to which cold temperatures were artificially applied in summer. Expression analysis suggested that these internal factors work either by reducing the increase in OeFT1/2 expression or through putative flowering repressors such as TFL1. With expected warmer winters, future consumption of olive oil, as part of a healthy Mediterranean diet, should benefit from better understanding these factors.     

Dose effect of UV-B irradiation on pollen tube growth and seed-specific promoter activities in irradiated pollen grains of Nicotiana plumbaginifolia

Low doses of UV-B irradiation applied to mature Nicotiana plumbaginifolia pollen grains stimulated pollen tube growth. The most pronounced effect was achieved after 1.5 min of irradiation. Using transgenic N. plumbaginifolia plants expressing the GFP reporter gene under the control of the seed-specific promoters USP (unknown seed protein) or LegB4 (legumin B4) genes, it was shown that these promoters are also inducible by UV-B irradiation of the pollen grains. The improvement of pollen viability and germination by UV-light is discussed with respect to effects on plant flowering and reproduction. Received: 10 November 1999 / Revision accepted: 14 February 2000     

Seasonal changes in C, N and major organic compounds and their significance to morpho-functional processes in the endemic Antarctic brown alga Ascoseira mirabilis

The seasonal and intra-thallus variations in the contents of C, N, proteins and amino acids, as well as in the storage carbohydrates mannitol and laminaran, were measured in the endemic Antarctic brown alga Ascoseira mirabilis between September and February and related to seasonal changes in dark respiration and photosynthesis. Carbon contents between 31 and 37% DW were relatively constant throughout these months and no variations were detected among thallus regions. Nitrogen contents, by contrast, were higher in September/October (3.1% DW) and decreased in January and February (1.8% DW). In general, the basal regions had the lower N contents. Proteins reached maximum values of 13% DW in November and February and were inversely correlated to photosynthesis (net P_max). The amino acid content was also higher in October and November (maxima close to 10% DW), but low between December and February (close to 5% DW), probably related to a seasonal pattern of N allocation in the alga. The storage carbohydrates mannitol and laminaran exhibited inverse seasonal changes: low mannitol values close to 5% DW in September were coupled with high laminaran contents varying between 7 and 15% DW. The existence of high laminaran contents in the distal blade region during September and February suggests that this compound was effectively accumulated in this region. The low P/R ratios in spring and the existence of a significant relationship between mannitol content and seasonal photosynthetic activity in the basal region appear to support the hypothesis of a possible utilization of carbohydrates to power growth in A. mirabilis. Received: 7 November 1996 / Accepted: 28 August 1997     

Earlier flowering between 1962 and 2002 in agricultural varieties of white clover

Date of first flowering was recorded for 40 years in the same agricultural varieties of white clover ( Trifolium repens L.). Standard procedures, experimental conditions and germplasm allowed the unmediated effects of climatic trends to be observed. Flowering dates of the same varieties at the same site have become significantly earlier over this period, with an advance of first flowering of approximately 7.5 days per decade since 1978. Annual maximum, minimum and soil temperatures at the site increased during the 40-year period. First flowering dates (FFDs) were significantly negatively correlated with minimum and maximum temperatures during February and March and soil temperatures between January and April. Maximum, minimum and soil temperatures increased between 1962 and 2002 for these months. No significant correlation was seen between FFD and soil temperatures at other times of the year including the period of vernalisation during winter. The occurrence of ground frost in February was significantly correlated with later flowering. Total annual rainfall and the number of wet days in a year increased between 1962 and 2002. However, only rainfall in February had a significant impact on FFD.     

Quantification of Three Key Enzymes Involved in Artemisinin Biogenesis in <Emphasis Type="Italic">Artemisia annua</Emphasis> by Polyclonal Antisera-Based ELISA

To elucidate the fine-tuned temporal and spatial modulation of artemisinin production in annual wormwood (Artemisia annua), we conducted enzyme-linked immunosorbent assay-based immunoquantification of three key enzymes involved in artemisinin biosynthesis, amorpha-4,11-diene synthase (ADS), cytochrome P450 monooxygenase (CYP71AV1), and cytochrome P450 reductase (CPR), in various tissues and under different growth conditions. The field-grown plants accumulate abundant ADS and CYP71AV1 but a trace amount of CPR in all tested tissues. Furthermore, ADS and CYP71AV1 accumulations in leaves are 16- and eightfold higher than in roots, and ten- and fourfold higher than in stems, respectively, demonstrating a tissue-specific expression pattern. Interestingly, the flowering field plants and cold-acclimated cultural plants produce higher levels of ADS and CYP71AV1 than non-flowering field plants or untreated cultural plants, indicating the environmental and developmental induction on ADS and CYP71AV1 genes and providing possible explanation for the observation that elevation of artemisinin level occurs after flowering.     

Reproductive isolation of two sympatric subspecies ofJuniperus phoenicea (Cupressaceae) in southern Spain

The phenology, reproductive cycle and cone crop of two sympatric subspecies ofJuniperus phoenicea (Cupressaceae) were studied during three consecutive years in southern Spain. The flowering pattern of each subspecies was constant during this period: inJ. phoenicea subsp.turbinata flowering was always in October–November, whileJ. phoenicea subsp.phoenicea flowered in February–March. There was no overlap between the flowering periods of the two taxa. The reproductive cycle of the two subspecies was similar, though there were some important differences because of their flowering times. Male cone development in both subspecies occurred in autumn, but the male cones ofJ. phoenicea subsp.phoenicea did not shed pollen until the end of February. InJ. phoenicea subsp.turbinata, the gap between pollination and fertilisation was seven months while inJ. phoenicea subsp.phoenicea it was only three months, fertilisation taking place at the same time in the two taxa. Post-fertilisation events were similar in the two subspecies, leading to a cycle of two years inJ. phoenicea subsp.turbinata and a shorter one of about 20 months inJ. phoenicea subsp.phoenicea. Alternating good and slight seed cone crops were found in both taxa during the three years studied, the good crops of one subspecies coinciding with the slight crops of the other one. Although the proximity of the two subspecies and method of pollination could make hybridisation between the taxa possible, the different flowering seasons prevent hybridisation isolating them reproductively.